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SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE AEROSPACE STANDARDS
Overview and Highlights
21.06.2016
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
THE IMPORTANCE OF
STANDARDS
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SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Standards provide benefits such as:
• Defining accurate and necessary measurements
• Lowering product costs
• Improving product performance, quality, uniformity, interoperability and
functionality
• Providing a method to improve health, safety, the environment,
communications, competition, international trade
• Improving the quality of life
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THE IMPORTANCE OF GLOBAL STANDARDS
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
ENABLE SAFER AND MORE EFFICIENT AVIATION
Approximately 1800 SAE International standards
are used in the development of a typical aircraft.
The first aerospace standard was written in 1916.
Today there are over 8500 active aerospace
standards and over 17500 historical standards in
circulation.
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SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
OVERVIEW OF SAE STANDARDS
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SAE INTERNATIONAL
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NEW SAE AEROSPACE STANDARDS FOR CUTTING EDGE
TECHNOLOGIES
Composite Materials
Human Factors &
Cockpit ElectronicsLED Runway
Lighting
and EFVS
Hydrogen Fuel
CellsActive RFID Tags
Fiber-optic networks
Anti-Icing
Technology
Electronics & Avionics
Corrosion Protection
Additive
Manufacturing
6
Electric & More Electric Aircraft
Integrated Vehicle
Health Management
& Prognostics
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SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
7
SAE AEROSPACE STANDARDS PROGRAM TOPICS
Nuts/Inserts
Bolts/studs/screws
Fluid connectors
Ignition systems
Emissions measurement
Engine condition monitoring
In-flight propulsion measurement
Engine controls
Support equipment and tools
Helicopter powerplants
Inlet flow distortion
Avionics networks
Aircraft store integration
Avionic subsystems
Embedded computing systems
Architecture description language
Fiber optics
Unmanned systems
Lightning
Electromagnetic compatibility
Electrical Power and equipment
Power management
Aircraft systems installation
Protective devices
Relays
Electrical connectors
Terminating Devices
Wire & cable
Safety assessment
Human Factors
Flight Deck tools and instruments
Displays
Human modeling
Quality system standards
Fuel operations
Radio Frequency Identification
Air cargo handling
Aircraft ground equipment and systems
Aircraft servicing
Aircraft Deicing
Airport snow and ice removal
Landing gear systems
Oxygen equipment
Aircraft interior/exterior lighting
Aircraft noise measurement
Environmental systems
Aircraft icing
Safety equipment
Cabin interiors
Survival equipment
Seats
Maintainability
Probabilistic Methods
Reliability
Structural Health Monitoring and Management
Air Traffic Management
Integrated Vehicle Health Management
Metals finishes, processes, fluids
Nonferrous alloys
Carbon & Low alloy steels
Specialty steels and alloys
Corrosion & heat resistant alloys
Titanium
Beryllium
Refractory materials
Metals engineering
Elastomers
Polymers
Composite materials (fabric & resins)
Composite repair materials
Composite inspection
Composite repair techniques
Organic Coatings
Seals and Sealants
Maintenance chemicals and materials
Greases
Lubricants
Nondestructive testing and inspection
Mechanical/Electrical/Hydraulic actuators
Hydraulic fluids
Filtration
Tubing
Hydraulic components
Fuel, oil, and oxidizer systems
Pumps
Couplings, Fittings, Hose
Tubing installation
Engine starting systems
Auxiliary Power
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
8
SAE and NATO
Through a Technical
Cooperation Agreement, NATO
supports and adopts SAE
industry standards
SAE is an officially recognized
civilian SDO partner to NATO
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
9
SAE and U.S. DEPARTMENT OF DEFENSE
Over 1500 Mil-Specs have been converted to SAE
standards
The US DoD has adopted more documents SAE from
than any other SDO
http://www.sae.org/standardsdev/military/
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Regulations and government documents reference SAE standards
to certify aircraft before entering the market.
Example FAA TSO
Mandatory compliance
Example FAA AC
Guidance material
Example EASA ETSO
Mandatory compliance
Example EASA AMC
Guidance material
Example ICAO Annex
Mandatory compliance
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE Group – Aerospace Standards
(PA not-for-profit Corp)
IRC 501(c)(3)
(PA not-for-profit Corp)
IRC 501(c)(6)
SAE Global LLC
(PA LLC)
ABP Int’l d/b/a
TechBriefs Media Group
(NY S-Corp)
Effective Training, Inc.
(MI C-Corp)
SAE Industrial Consulting
Services (Shanghai) Co, Ltd.
(China LLC)
Affiliate Affiliate
For-profit Subsidiaries
PRI Europe, Ltd
(UK for-profit)
Performance Review Institute
(Singapore) PRE. LTD.
(Singapore for-profit)
SAE Foundation
Sections
PRI-CAPE (Beijing)
Certification Co., Ltd
(Joint Venture)
For-profit Subsidiaries
SAE Brasil
(Brasil not-for-profit)
SAE India
(India not-for-profit)
SAE Foundation Canada
(Canada not-for-profit)
Alliance Partners
Denotes Ownership & Governance Stewardship
Denotes Governance Stewardship
Denotes No Ownership or Governance Stewardship
U.S. OFFICES
- Warrendale, PA (Corporate Headquarters for SAE, PRI and ITC)
- Troy, MI (Automotive Headquarters for SAE)
- Livonia, MI (ETI, Inc. offices)
- Washington, DC (Washington offices for SAE)
- New York/New Jersey (TBMG offices)
- Bowie, MD (ARINC IA offices)
INTERNATIONAL OFFICES
- London, UNITED KINGDOM (SAE, PRI offices)
- Derby, UNITED KINGDOM (PRI)
- Beijing, CHINA (PRI)
- Shanghai, CHINA (SAE WOFE office)
- Aichi (Nagoya), JAPAN (PRI)
- SINGAPORE (PRI)
Industry Technologies Consortia
(PA not-for-profit Corp)
IRC 501(c)(6)
ITC Industry Programs
Aerospace Engine
Supplier Quality
Strategy Group
ARINC Industry
Activities
Engine & Airframe
Standards
Probitas
Authentication
Input / Output
Buffer Information
Specification
World Manufacturer
Code/Product
Identification Number
(WMC/PIN)
11
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Systems Groups 10
Steering Groups 2
Technical Committees 181
Standards 8,500+
Document Types 4
AS, AMS, ARP, AIR
Unique Participants 8,300+
Total Participation17,600+
SAE Aerospace Standards by the Numbers
12
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Major Global Aerospace Organizations Develop SAE Standards
13
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE Aerospace Council, Global Custodians: Oversight and
Governance
Airbus
Airbus Group
A4A
AVIC
BAE Systems
Boeing
Bombardier
Aerospace
CAPE
CIRA
COMAC
EASA
Embraer
FAA
Finmeccanica
GE Aviation
Gulfstream Aerospace
Honeywell Aerospace
Lockheed Martin
Lufthansa Technik
Northrop Grumman
Pratt & Whitney / UTC
Rolls-Royce (Chair)
United Aircraft Corporation
U.S. Department of Defense
Wichita State University
April 2016 Meeting in Beijing
Stakeholders:
Industry, Operators, Government, Research
ICAO Observer Role
Asia 12%
Matching the Industry
Europe 32%
North America 52%
South America 4%
14
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE Organizational Structure: Council Level
Technical Standards Committees
Aero
General
Projects
Airport &
Ground
SupportAircraft
Aero
Electronics
& Electrical
Systems
Aero
Mech &
Fluids
Systems
Aero
Propulsion
Reliability,
Maint,
Support,
Logistics
Avionics
Systems
Aerospace CouncilIVHM
EASG
Aerospace
Materials
Systems Groups
Systems
&
Process
SAE Board of Directors
Engineering
Meetings
Board
Foundation
Board of
Trustees
Publications
Board
Engineering
Education
Board
Sections
Board
Technical Standards
Board
15
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Large scope of topics:
• Parts, Materials
• Mechanical, Electronic/Avionic/Wireless, ICT
• Platform, Systems, Subsystems
• Cross-cutting technologies
• Management & Process Standards
• e.g. Safety Assessment, Quality and Counterfeit Avoidance
Through Life Usage:
Design, Certification, Manufacturing, Operation, Maintenance
SAE Standards - Technical Breadth
16
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
One Forum, One Standard
17
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Transparent, Efficient, Industry-Managed Standards Development
The document is proposed
By industry
By regulator
For revision
The draft is created by the committee
The draft document is balloted – by committee. 50% Quorum and 75%
Approval required
Required changes made; affirmation ballot and Council Ballot
The document is published by SAE
Initiate Draft Ballot Approve Publish
~18 months standard development time
18
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Types Of SAE Standards
AS Aerospace Standards – specific performance requirements used for design
standards, parts standards, minimum performance standards, quality and other areas
conforming to broadly accepted engineering practices or specs for a material, product,
process, procedure or test method
AMS Aerospace Material Specifications – specific performance requirements for
material and process specifications
ARP Aerospace Recommended Practices – documentations of practice, procedures,
and technology that are intended as guides to standard engineering practices. May be
of a more general nature or propound data that have not yet gained broad acceptance.
AIR Aerospace Information Reports – compilations of engineering reference
data, historical information, or educational material useful to the technical
community19
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SARPs MANUALS
REGULATIONS
ACs, CS, POLICIES
INDUSTRY STANDARDS
1st Tasking Request
List of Intl. Orgs
17 Tasking Requests
Regional Office Support:
DC, Europe, China
The Public-Private Partnership: Civil Aviation
20
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Standards Referenced in EASA & FAA Regulations
ASTM*, 37
CMH-17*, 1EN*, 11
EUROCAE*, 77
RTCA*, 85
IEC*, 9
ISO*, 24
NAS*, 5
MIL*, 24
SAE* 147
EASA FAA
ASTM*, 111
CMH-17*, 1EN*, 3EUROCAE*, 68
RTCA*, 194
IEC*, 41
ICAO*, 66
ISO*, 24
NAS*, 13
MIL*, 342
SAE*, 400
21
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE maintains over 1,500 former US MilSpecs as industry
standards – since early 2000s
SAE International has worked with DStan to transfer 17
DefStan's to SAE standards
The first such standard, Impregnation of Porous Castings
& Sintered Metal Components was converted to SAE
AMS03-1 and was published on February 24th 2015
A successful embodiment of DStan’s civil standards
campaign
With an agreed process in place and successfully tested,
further transfers are anticipated
Partnership on NATO Civil Standards Campaign
SAE And “DefStan Reform”
22
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Aerospace Standards Landscape
SAE, ADS & ARINC
IA
ASTM (aerospace or general)
AIA
RTCA
EUROCAE
ISO (SCs under TC-
20)
ASD-STAN (EN and prEN)
AIAA
2.1.1 SAE Publications
AS8045 Minimum Performance Standard for Underwater Locating Devices
(Acoustic) (Self-Powered)
2.1.2 ASTM Publications
ASTM D1141-98 Standard Practice for the Preparation of Substitute Ocean Water
2.1.3 RTCA Publications
RTCA/DO-160G Environmental Conditions and Test Procedures for Airborne
Equipment
2.1.4 ARINC Publications
ARINC 677 Installation Standards for Low Frequency Underwater Locator Beacon
(LF-ULB)
23
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE Aerospace Standards for New Technologies
Integrated Vehicle
Health Management
& Prognostics
Active RFID Tags
Fiber-optic networksAdditive Manufacturing
Electric & More Electric Aircraft
Cybersecurity
Data Interoperability & Big Data
24
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
G-22 Engine Supply Chain Quality
G-26 Helicopter Hoists
Electric Aircraft Steering Group (EASG)
AMS-AM Additive Manufacturing
G-27 Lithium Performance Packaging
A-4 HWD – Head Worn Displays
A-4 EFIS – Electronic Flight Information Displays
New SAE Committees 2014-16
25
SAE INTERNATIONAL
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• Published 4 standards
• AS13000 Problem Solving Requirements for Suppliers
• AS13001 Supplier Self Release Training Requirements
• AS13002 Requirements for Developing and Qualifying Alternate Inspection Frequency
Plans
• AS13003 Measurement Systems Analysis Requirements for the Aero Engine Supply
Chain
• Drafting 4 new standards
• AS13004 FMEA & Process Planning
• AS13005 Supplier Internal Audit
• AS13006 Requirements for Process Control for Aero Engine Parts Manufacture
• AS13007 Supplier Management
SAE G-22 Aerospace Engine Supplier Quality (AESQ) Committee
26
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE Training Developed: Aerospace Supplier Quality: Common Training
for Self-Release Delegates based on AS13001
• Estimated impact ~4,000 people and growing with a 3-year re-certification
cycle
AESQ Strategy Group – an SAE ITC Participant Group
27
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
FAA Tasking Request Status
Document # Topic Update
AS6023 Create MPS for active RFID tags
and sensors for use on aircraft
Plan to publish August 2016
AS6342 Create MPS for helicopter hoists Plan to publish March 2017
AS6348 AC to AC conversion standard Plan to publish April 2017
AS6377 Develop AS and ARP for head-worn
displays
Plan to publish January 2018
AS6296 Create MPS for electronic flight
instrument system display
Published March 2016
Develop new additive manufacturing
committee
Completed January 2016
28
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
ICAO Tasking on Lithium Battery Packaging Standard
• Received SAE’s first ICAO tasking request to
develop lithium battery packaging performance
standard
• Risks associated with the carriage of lithium ion
batteries as cargo are not adequately controlled
• Aircraft cargo fire protection systems may not be
capable of adequately suppressing a Li battery fire
• “ICAO therefore urges SAE to establish a
committee to propose a packaging performance
standard for lithium batteries using the high-
level standards developed during the third multi-
disciplinary lithium battery transport
coordination meeting as the basis for this work.” 29
SAE INTERNATIONAL
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Works in Progress
Current AMS-AM Works in Progress (WIPs)
Project Title Date
AMS7000 Additive Manufacture of Aerospace parts from Ni-base Superalloy 625 via
the Laser Powder Bed Process
Aug 11, 2015
AMS7001 Ni Base 625 Super Alloy Powder for use in Laser Powder Bed Add Mfg
Machines
Oct 05, 2015
AMS7002 Process Requirements for Production of Ni-base 625 for Production of
Aerospace parts via Laser Powder Bed Additive Manufacturing
Oct 28, 2015
AMS7003 Laser Powder Bed Fusion Process Oct 28, 2015
Next topics – Metallic: Titanium AM (Airbus),
Non-metallic: Cabin Parts (IATA)
30
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE Standards and Products
2016
• Farnborough International Airshow, July 12th 2016
Operators/MRO Maintenance Credits Workshop
• Keynote – Ian Davies, EasyJet
• Airline focus
IVHM Book Series
31
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Acquired from TechAmerica Group in 2013
Formerly EIA, GEIA standards
Fully Integrated into SAE Aerospace Standards program as SSTC Systems Group
Includes IBIS consortium, which resides in SAE ITC
• 137 Standards; 22 Works in Progress
• Addressing multiple industry sectors
• Avionics, Configuration Management, Systems Engineering, Safety, Lifecycle Logistics,
Reliability
• Potential establishment of new cross-sector Council
• New Human Systems Integration standards project under G-45
SSTC Standards
32
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Acquired from ADS in 2015; history as SBAC
standards from 1916
Operates under SAE ITC and includes associated parts
qualification programme
• Rebranded as SAE ITC Engine & Airframe Standards
• New Website capabilities
• UK-based Technical Standards Committee (TSC) oversight
• New airframe fastener standard in development by Rolls-Royce and Airbus
• Increase in foreign qualifications since SAE acquisition – India, China,
Taiwan, USA
• Links made with SAE E-25 and G-3 committees for synergy
Engine & Airframe Standards
33
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Summary
The role standards play in industry and regulation is critical
Industry needs a transparent, robust and efficient process for producing standards
E
U
Aerospace industry standardisation is consolidating as organisations focus on
core values and services – driving efficiency and connecting global industry
Global industry and regulation plays a leading role in SAE standards – at
strategic and technical levels
SAE’s aerospace standards portfolio available online includes SAE International
Standards, Engine & Airframe Standards and associated standards products
SAE’s global offices directly support constituents – Europe, Asia and Americas
34
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
QUESTIONS?
35
Bruce Mahone
Director, Washington Operations
SAE International
+1-202-434-8943
Bruce.Mahone@sae.org
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SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
BACKUP:
EXISTING SAE STANDARDS FOR
RPAS
AUVSI's Unmanned Systems Europe 2016, Brussels 36
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
Document Title
AS50881™ Wiring Aerospace Vehicle
ARP94910™Aerospace - Vehicle Management Systems - Flight Control Design, Installation and Test of, Military Unmanned Aircraft, Specification Guide For
ARP5724™ Aerospace - Testing of Electromechanical Actuators, General Guidelines For
ARP5707™Pilot Training Recommendations for Unmanned Aircraft Systems (UAS) Civil Operations
AIR6027™ Considerations for Safe Store Operation on Manned and Unmanned Vehicles
AIR744™ Aerospace Auxiliary Power Sources
AUVSI's Unmanned Systems Europe 2016, Brussels 37
SAE INTERNATIONAL GLOBAL STANDARDS
The following SAE standards either explicitly state provisions for unmanned
systems or are written entirely for unmanned systems.
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
The primary goal of AS-4 is to publish standards that enable
interoperability of unmanned systems for military, civil and commercial use
through the use of open systems standards and architecture development.
Subcommittees include:
– AS-4ALFUS Unmanned Systems Performance Measures Committee
– AS-4JAUS Joint Architecture for Unmanned Systems Committee
– AS-4UCS Unmanned Aircraft System Control Segment Committee
AUVSI's Unmanned Systems Europe 2016, Brussels 38
SAE TECHNICAL COMMITTEE: AS-4 UNMANNED SYSTEMS
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
AS-4 was formed as a result of the Joint Architecture for Unmanned
Systems Working Group (JAUS WG) migration to SAE.
The objective is to define and sustain a joint architecture for the domain of
unmanned systems. JAUS is a message-based architecture that defines data
formats and methods of communication among computing nodes.
For example:
All modular components/subsystems, if designed to the JAUS standards, will
communicate with the system regardless of manufacturer.
AUVSI's Unmanned Systems Europe 2016, Brussels 39
AS-4JAUS (Joint Architecture for Unmanned Systems Committee)
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE
Document
Title
ARP6128 Unmanned Systems Terminology Based on the ALFUS Framework
AIR5645A JAUS Transport Considerations
AIR5664A JAUS History and Domain Model
AIR5665B Architecture Framework for Unmanned Systems
ARP6012A JAUS Compliance and Interoperability Policy
ARP6227 JAUS Messaging over the OMG Data Distribution Service (DDS)
AS5669A JAUS/SDP Transport Specification
AS5684B JAUS Service Interface Definition Language
AS5710A JAUS Core Service Set
AS6009 JAUS Mobility Service Set
AS6040 JAUS HMI Service Set
AS6057A JAUS Manipulator Service Set
AS6060 JAUS Environment Sensing Service Set
AS6062 JAUS Mission Spooling Service Set
AS6091 JAUS Unmanned Ground Vehicle Service Set
AUVSI's Unmanned Systems Europe 2016, Brussels 40
TABLE OF SAE JAUS DOCUMENTS
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
The addition of the Performance Measures subcommittee, previously the
Autonomy Levels for Unmanned Systems (ALFUS) Working Group, adds a
critical dimension to unmanned systems standards
The AS-4ALFUS committee specifies terms and definitions for the performance
of unmanned systems; establish measures for the performance and
characterization of unmanned systems, their components, and their interactions
AUVSI's Unmanned Systems Europe 2016, Brussels 41
AS-4ALFUS (Unmanned Systems Performance Measures
Committee)
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
The AS-4UCS Technical Committee supports the charter of AS-4 (Unmanned
Systems) in the field of the Unmanned Aircraft System (UAS) Control Segment
(UCS). The UCS is defined as the system or family of systems that controls and
monitors one or more unmanned aircraft and their payloads, where an unmanned
aircraft is defined as an aerial vehicle that does not convey its pilot or operator,
and a payload is defined as a device carried by the unmanned aircraft to support
its assigned mission
- The scope of the AS-4UCS Technical Committee is to define UCS
architectures and architecture frameworks, develop associated Technical
Reports to support the ecosystem of UCS products, and support alignment of
UCS architectures with peer architectures.
AUVSI's Unmanned Systems Europe 2016, Brussels 42
AS-4UCS (Unmanned Control Segment)
SAE INTERNATIONAL
Copyright © SAE International. Further use or distribution is not permitted without permission from SAE
SAE
Document
Title
AIR6514 UAS Control Segment (UCS) Architecture: Interface Control Document (ICD)
AIR6515 UAS Control Segment (UCS) Architecture: EA Version of UCS ICD Model
AIR6516 UAS Control Segment (UCS) Architecture: RSA Version of UCS ICD Model
AIR6517 UAS Control Segment (UCS) Architecture: Rhapsody Version of UCS ICD Model
AIR6519 UAS Control Segment (UCS) Architecture: Use Case Trace (UCTRACE)
AIR6520 UAS Control Segment (UCS) Architecture: Version Description Document (VDD)
AIR6521 UAS Control Segment (UCS) Architecture: Data Distribution Service (DDS)
AIR6523 Data Dictionary for Quantities Used in Unmanned Systems
AS6512 UAS Control Segment (UCS) Architecture: Architecture Description
AS6513 UAS Control Segment (UCS) Architecture: Conformance Specification
AS6518 UAS Control Segment (UCS) Architecture: Model
AS6522 UAS Control Segment (UCS) Architecture: Architecture Technical Governance
ARP6128 Unmanned Systems Terminology Based on the ALFUS Framework
AUVSI's Unmanned Systems Europe 2016, Brussels 43
TABLE OF SAE UCS AND ALFUS DOCUMENTS
SAE INTERNATIONAL
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ARP-4754A: Guidelines for Development of Civil Aircraft and Systems
This document discusses the development of aircraft systems taking into account
the overall aircraft operating environment and functions
This includes validation of requirements and verification of the design
implementation for certification and product assurance. It provides practices for
showing compliance with the regulations and serves to assist a company in
developing and meeting its own internal standards by considering the guidelines
herein
AUVSI's Unmanned Systems Europe 2016, Brussels 44
SAE PRODUCT ASSURANCE
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